Quantum physics allows one to produce truly random bits. Moreover, it allows one to distribute them in such a way that one can certify their privacy before eventually using them for cryptography applications. Quantum Random Number generators (QRNG) and Quantum Key Distribution (QKD) have found a few niche markets. Today, some commercial clients use QKD continuously 24×7 a week. In this workshop world specialists will talk about reliability tests in quantum networks; about quantum hacking, its importance and limitations, and its role in classical and quantum cryptography; about high rate and about low cost QKD systems; about free space quantum communication; and about future quantum repeaters for continental scale quantum communication.
Romain Alléaume, Jan Bouda, Cyril Branciard, Thierry Debuisschert, Mehrdad Dianati, Nicolas Gisin, Mark Godfrey, Philippe Grangier, Thomas Länger, Anthony Leverrier, Norbert Lütkenhaus, Philippe Painchault, Momtchil Peev, Andreas Poppe, Thomas Pornin, John Rarity, Renato Renner, G. Ribordy, Michel Riguidel, Louis Salvail, A. J. Shields, Harald Weinfurter, Anton Zeilinger
Romain Alléaume, Jan Bouda, Cyril Branciard, Thierry Debuisschert, Mehrdad Dianati, Nicolas Gisin, Mark Godfrey, Philippe Grangier, Thomas Länger, Anthony Leverrier, Norbert Lütkenhaus, Philippe Painchault, Momtchil Peev, Andreas Poppe, Thomas Pornin, John Rarity, Renato Renner, G. Ribordy, Michel Riguidel, Louis Salvail, A. J. Shields, Harald Weinfurter, Anton Zeilinger
Momtchil Peev, Christoph Pacher, Romain Alléaume, Claudio Barreiro, Jan Bouda, W Boxleitner, Thierry Debuisschert, Eleni Diamanti, Mehrdad Dianati, J. F. Dynes, Sylvain Fasel, Simon Fossier, Martin Fürst, J.-D. Gautier, Olivier Gay, Nicolas Gisin, Philippe Grangier, Andreas Happe, Y Hasani, Michael Hentschel, Hannes Hübel, Gerhard Humer, Thomas Länger, Matthieu Legré, Roland Lieger,
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